Ventilation seat of vehicle

ABSTRACT

Disclosed herein is a ventilation seat of a vehicle, wherein since an adhesive material includes a through hole corresponding to an air flow path of a seat pad, when the seat pad and the adhesive material are joined to each other, an area disjoined between the seat pad and the adhesive material is prevented from occurring. Accordingly, noise caused by a gap that may occur between the seat pad and the adhesive material is prevented, which eliminates discomfort and displeasure due to the noise when a driver is seated in the seat and improves marketability of the ventilation seat.

CROSS REFERENCE TO RELATED APPLICATION

The present application claims priority to Korean Patent Application No.10-2017-0136552, filed Oct. 20, 2017, the entire contents of which isincorporated herein for all purposes by this reference.

BACKGROUND OF THE INVENTION Field of the Invention

The present invention generally relates to a ventilation seat of avehicle, wherein the ventilation seat prevents noise occurring at anarea on which when joining a channel cover to a seat pad, the channelcover is not joined to the seat pad.

Description of the Related Art

Generally, a vehicle is provided with a seat on which a driver isseated, wherein the seat includes a seat back which supports the backand waist part of the driver and a seat cushion on which the driversits. When a driver sits for a long time in the seat, sweat from thedriver's buttocks, back, and a lower back accumulates, which makessitting in the seat unpleasant.

Accordingly, a seat includes a ventilation device provided therein, theventilation device sending air to a driver sitting in the seat byblowing the air through ventilation channels provided in the seat backand the seat cushion. Accordingly, air is supplied to a portion of thedriver in contact with the seat back and the seat cushion, wherebycooling functions are realized, thus making riding pleasant.

Here, a cushion part of each of the seat back and the seat cushionincludes the ventilation channel and an additional cover such that theair of the ventilation channel does not leak out. The cover is joined byan adhesive material to the cushion part, and when a gap occurs betweenthe cushion part and the adhesive material, the adhesive material isrepeatedly joined to and disjoined from the cushion part on theassociated area, which creates noise.

The foregoing is intended merely to aid in the understanding of thebackground of the present invention, and is not intended to mean thatthe present invention falls within the purview of the related art thatis already known to those skilled in the art.

SUMMARY OF THE INVENTION

Accordingly, the present invention has been made keeping in mind theabove problems occurring in the related art, and the present inventionis intended to propose a ventilation seat of a vehicle, wherein theventilation seat prevents a disjoined area that may occur between acushion part and an adhesive material, thereby preventing noise causedby a gap that may occur between the cushion part and the adhesivematerial.

In order to achieve the above object, according to the presentinvention, there is provided a ventilation seat of a vehicle, theventilation seat including: a seat pad having an air flow path providedon a lower surface part of the seat pad by being depressed on the lowersurface part, with air flowing in the air flow path; a channel coverprovided to have a plate shape and to be in close contact with the lowersurface part of the seat pad in order to cover the air flow path; and anadhesive material arranged between the seat pad and the channel cover,and joined to the lower surface part of the seat pad and an uppersurface part of the channel cover respectively, wherein the adhesivematerial has a through hole provided on an area corresponding to an areaof the air flow path.

The air flow path of the seat pad may be configured to extend in aplurality of courses on the lower surface part of the seat pad, and thethrough hole of the adhesive material may be configured by extending inorder to correspond to a shape of the air flow path.

A width of the through hole may be configured to be the same as a widthof the air flow path.

When an inlet part depressed at a position at which the air flow path isprovided on the lower surface part of the seat pad is configured to becurved, and thus a width of opposite lower ends of the inlet part isconfigured to be larger than a width of an inside of the air flow path,a width of the through hole may be configured to be larger than thewidth of the opposite lower ends of the inlet part.

The inlet part depressed at a position at which the air flow path isprovided on the lower surface part of the seat pad may include joinedparts protruding from opposite lower ends of the air flow path toward acenter of the air flow path, and a width of the through hole may beconfigured to be equal to or larger than the distance spaced apart fromeach other between the opposite lower ends of the joined parts.

Each of the joined parts may be configured to constitute the samesurface as the lower surface part of the seat pad.

The adhesive material may be an acrylic pressure sensitive adhesive(PSA), a rubber PSA, or a hot melt PSA.

The ventilation seat of a vehicle having a configuration mentioned aboveis configured in such a manner that when the seat pad and the adhesivematerial are joined to each other, the adhesive material includes thethrough hole corresponding to the air flow path of the seat pad, therebypreventing an area disjoined between the seat pad and the adhesivematerial from occurring. Accordingly, noise caused by a gap that mayoccur between the seat pad and the adhesive material is prevented, whicheliminates discomfort and displeasure due to the noise when a driver isseated in the seat and improves marketability of the ventilation seat.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and other advantages of thepresent invention will be more clearly understood from the followingdetailed description when taken in conjunction with the accompanyingdrawings, in which:

FIG. 1 is an exploded perspective view showing a ventilation seat of avehicle according to a first embodiment of the present invention;

FIG. 2 is a cross-sectional view for describing the first embodiment ofthe ventilation seat shown in FIG. 1;

FIG. 3 is a cross-sectional view for describing a second embodiment ofthe ventilation seat shown in FIG. 1;

FIG. 4 is a cross-sectional view for describing a third embodiment ofthe ventilation seat shown in FIG. 1;

FIG. 5 is a top plan view for describing a fourth embodiment of theventilation seat shown in FIG. 1; and

FIG. 6 is a cross-sectional view for describing a conventionalventilation seat of a vehicle.

DETAILED DESCRIPTION OF THE INVENTION

Hereinbelow, a ventilation seat of a vehicle according to exemplaryembodiments of the present invention will be described in detail withreference to the accompanying drawings.

FIG. 1 is an exploded perspective view showing the ventilation seat of avehicle according to a first embodiment of the present invention, FIG. 2is a cross-sectional view for describing the first embodiment of theventilation seat shown in FIG. 1, FIG. 3 is a cross-sectional view fordescribing a second embodiment of the ventilation seat shown in FIG. 1,and FIG. 4 is a cross-sectional view for describing a third embodimentof the ventilation seat shown in FIG. 1.

The ventilation seat of a vehicle according to the present invention isconfigured in such a manner that the ventilation seat is provided with aseat pad 10 having an air flow path 12, and while with a channel cover20 joined to the seat pad 10, air is flowing in the air flow path 12,the air does not leak out to the outside. Here, the seat pad 10 has ablower unit provided on a lower side thereof, wherein the blower unit isconnected to the seat pad by passing through the channel cover 20 inorder to communicate with the air flow path 12, and accordingly theblower unit supplies ventilation air to the air flow path 12. Theconventional configuration of the ventilation seat including an air holethrough which the air flow path 12 communicates with a position of adriver, and a mount hole through which the blower unit passes throughthe channel cover 20 is not shown in the drawings and is not describedin detail, but in describing the present invention, an adhesive material30 joining the seat pad 10 to the channel cover 20 will be described indetail.

As shown in FIG. 1, the ventilation seat of a vehicle according to thepresent invention includes the seat pad 10 having the air flow path 12provided on a lower surface part of the seat pad by being depressed onthe lower surface part, with air flowing in the air flow path 12; thechannel cover 20 provided to have a plate shape and to be in closecontact with the lower surface part of the seat pad 10 in order to coverthe air flow path 12; and the adhesive material 30 arranged between theseat pad 10 and the channel cover 20, and joined to the lower surfacepart of the seat pad 10 and an upper surface part of the channel cover20 respectively, wherein the adhesive material has a through hole 32provided on an area corresponding to an area of the air flow path 12.

Here, the seat pad 10 is applied to a seat cushion or a seat back, andwhen applied to the seat cushion, the seat pad 10 may include the airflow path 12 provided on the lower surface part thereof, and whenapplied to the seat back, the lower surface part of the seat pad 10becomes a rear surface part of the seat pad 10, and thus the rearsurface part may include the air flow path 12 provided thereon.

Accordingly, the seat pad 10 includes the air flow path 12, and thechannel cover 20 is configured to be in close contact with the lowersurface part of the seat pad 10. Particularly, the adhesive material 30is arranged between the seat pad 10 and the channel cover 20, and theseat pad 10 is joined by the adhesive material 30 to the channel cover20. That is, the lower surface part of the seat pad 10 is joined to anupper surface part of the adhesive material 30, and the upper surfacepart of the channel cover 20 is joined to a lower surface part of theadhesive material 30, and accordingly the seat pad 10 is joined to thechannel cover 20 with the adhesive material 30 arranged therebetween.

Particularly, with the adhesive material 30 arranged between the seatpad 10 and the channel cover 20, the adhesive material 30 has thethrough hole 32 provided on the area corresponding to the area of theair flow path 12, and may be an acrylic pressure sensitive adhesive(PSA), a rubber PSA, or a hot melt PSA.

Accordingly, though a driver is seated, the air flow path 12 of the seatpad 10 is not joined to the through hole 32 of the adhesive material 30,thus the seat pad 10's repeated joining to and disjoining from theadhesive material 30 is avoided in the vicinity on which the air flowpath 12 is provided, whereby noise is prevented.

In addition, when the air flow path 12 is provided on the seat pad 10,due to manufacturing characteristic, the air flow path 12 may includecurved inclinations provided on opposite lower ends thereof.Accordingly, as shown in FIG. 6, a disjoined area on which the seat pad10 and the adhesive material 80 are not joined to each other is created,and when the conventional adhesive material 80 is still applied, thedisjoined area allows the seat pad 10 repeatedly to be joined to anddisjoined from the adhesive material 80 depending on how a driver isseated, accordingly generating noise.

The present invention is intended to solve the above problems occurringin the related art, and the adhesive material 30 includes the throughhole 32 provided on the area corresponding to the area of the air flowpath 12. Accordingly, the disjoined area is prevented from occurring,and thereby noise due to the seat pad 10 being joined to and disjoinedfrom the adhesive material 30 is prevented.

Additionally, as shown in FIG. 1, the air flow path 12 of the seat pad10 may be configured to extend in a plurality of courses on the lowersurface part of the seat pad, and the through hole 32 of the adhesivematerial 30 may be configured by extending in order to correspond to ashape of the air flow path 12.

The air flow path 12 of the seat pad 10 may be configured to extend inthe plurality of courses in order to correspond to the sitting postureof a driver, and may be configured to have an ‘H’ shape as shown in FIG.1 according to the first embodiment. Here, the through hole 32 of theadhesive material 30 is configured by extending in order to correspondto the shape of the air flow path 12, and the contact of the seat pad 10with the adhesive material 30 is avoided in the vicinity on which theair flow path 12 of the seat pad 10 is provided, which accordinglyprevents noise due to the seat pad 10 being joined to and disjoined fromthe adhesive material 30.

Meanwhile, according to the first embodiment, a width of the throughhole 32 may be configured to be the same as a width of the air flow path12.

As shown in FIG. 2, since the width of the through hole 32 of theadhesive material 30 is configured to be the same as the width of theair flow path 12 of the seat pad 10, the air flow path 12 and thethrough hole 32 may be connected to each other in order to extend in astraight line. When the width of the through hole 32 of the adhesivematerial 30 is configured to be larger or smaller than the width of theair flow path 12 of the seat pad 10, while pressure due to a driversitting on the seat is applied to the seat pad 10, the seat pad 10 isdeformed, and thus the seat pad 10 and the adhesive material 30 may comeinto contact with each other. Accordingly, during the restoration of theseat pad 10, the separation of the seat pad 10 from the adhesivematerial 30 may create noise.

Accordingly, since the through hole 32 of the adhesive material 30 andthe air flow path 12 of the seat pad 10 are configured to be the same inwidths, though the seat pad 10 is deformed, the contact of the seat pad10 with the adhesive material 30 is avoided on an area on which thethrough hole 32 is provided while the state of the seat pad 10 beingjoined to the adhesive material 30 is maintained, and thereby noise isprevented.

Meanwhile, according to the second embodiment of the present invention,as shown in FIG. 3, when an inlet part 14 depressed at a position atwhich an air flow path 12 is provided on a lower surface part of a seatpad 10 is configured to be curved, and thus a width of opposite lowerends of the inlet part 14 is configured to be larger than a width of aninside of the air flow path 12, a width a of a through hole 32 may beconfigured to be larger than the width b of the opposite lower ends ofthe inlet part 14.

That is, the seat pad 10 includes the air flow path 12 provided on thelower surface part of the seat pad by being depressed on the lowersurface part, and when the inlet part 14 is configured to be curved at astarting position at which the air flow path 12 is depressed, the widtha of the through hole 32 is configured to be larger than the width b ofthe opposite lower ends of the inlet part 14, which enables the seat pad10 not to be in contact with the adhesive material 30.

Specifically, when pressure due to a driver sitting in the seat isapplied to the seat pad 10 with the inlet part 14 of the seat pad 10being configured to be curved, the seat pad 10 is deformed, and thecurved inlet part 14 may momentarily come into contact with the adhesivematerial 30. Accordingly, when the seat pad 10 is restored, the inletpart 14 of the seat pad 10 is separated from the adhesive material 30,and thus noise may occur.

Accordingly, when the inlet part 14 of the seat pad 10 is configured tobe curved, the width a of the through hole 32 provided on the adhesivematerial 30 is configured to be larger than the width b of the oppositelower ends of the inlet part 14 such that though the seat pad 10 isdeformed, the contact of the seat pad 10 with the adhesive material 30is avoided by the through hole 32 provided while the state of the seatpad 10 being joined to the adhesive material 30 is maintained, therebypreventing noise.

Meanwhile, according to the third embodiment, as shown in FIG. 4, aninlet part 14 depressed at a position at which an air flow path 12 isprovided on a lower surface part of a seat pad 10 includes joined parts16 protruding from opposite lower ends of the air flow path toward acenter of the air flow path 12, and a width c of a through hole 32 maybe configured to be equal to or larger than a distance d spaced apartfrom each other between opposite lower ends of the joined parts 16.

Here, each of the joined parts 16 is configured to constitute the samesurface as the lower surface part of the seat pad 10 such that theadhesive material 30 is in close contact with the lower surface part ofthe seat pad 10 and the joined parts 16.

Accordingly, the air flow path 12 of the seat pad 10 includes the joinedparts 16, and the width c of the through hole 32 is configured to beequal to or larger than a distance d spaced apart from each otherbetween the opposite lower ends of the joined parts 16 such that thoughthe seat pad 10 is deformed, the seat pad 10 is not joined to anddisjoined from the adhesive material 30.

That is, when the seat pad 10 is deformed by a driver sitting in a seat,the joined parts 16 protruding from the opposite lower ends of the airflow path 12 toward an inside thereof and the adhesive material 30maintain a state joined to each other, and accordingly though the seatpad 10 is deformed, the seat pad 10 being repeatedly joined to anddisjoined from the adhesive material 30 is avoided.

FIG. 5 is a top plan view for describing a fourth embodiment of theventilation seat shown in FIG. 1, wherein a channel cover 20 includes aslit hole 22 provided thereon, and an adhesive material 30 is joined tothe channel cover 20.

The channel cover 20 is joined by the adhesive material 30 to a lowersurface part of a seat pad 10, and a ventilation duct D of the outside,which communicates with an air flow path 12 of the seat pad 10, isrequired to be combined with the channel cover 20. To this end, thechannel cover 20 includes the slit hole 22 provided thereon throughwhich the ventilation duct D passes in order to be combined with thechannel cover 20.

The slit hole 22 is provided at a position at which the air flow path 12and a through hole 32 overlap such that the ventilation duct D of theoutside of a seat communicates with the air flow path 12 of an inside ofthe seat. Further, when the ventilation duct D and the channel cover 20are combined with each other, assembly tolerances may occur.Accordingly, the slit hole 22 is configured in such a manner that adiameter e of the slit hole in a longitudinal direction of the seat islarger than a diameter f of the slit hole in a width direction of theseat such that the ventilation duct D is safely combined with the slithole 22 even when the assembly tolerances occur. That is, since the slithole 22 has a shape of an oval or a slit extending long in alongitudinal direction of a seat, the ventilation duct D may be mountedto the channel cover 20 without being interfered with by the channelcover though the ventilation duct D is mounted to a position slightlydeviating forwards or rearwards from the exact position on which theventilation duct D is mounted to the channel cover 20.

When the slit hole 22 has a shape of an exact circle and assemblytolerances occur, the assembly of the ventilation duct D with the slithole may be made impossible, or a frictional force occurring between theventilation duct D and an edge of the slit hole 22 may increase, whichmay cause noise. According to the present invention, the diameter of theslit hole 22 increases in the longitudinal direction of the seat, andthereby such a problem is prevented from occurring.

The ventilation seat of a vehicle having a configuration mentioned aboveis configured in such a manner that when the seat pad 10 and theadhesive material 30 are joined to each other, the adhesive material 30includes the through hole 32 corresponding to the air flow path 12 ofthe seat pad 10, and thus an area disjoined between the seat pad 10 andthe adhesive material 30 is prevented from occurring. Accordingly, noisecaused by a gap that may occur between the seat pad 10 and the adhesivematerial is prevented, which thereby eliminates discomfort anddispleasure due to the noise when a driver is seated in the seat andimproves marketability of the ventilation seat.

Although preferred embodiments of the present invention have beendescribed for illustrative purposes, those skilled in the art willappreciate that various modifications, additions and substitutions arepossible, without departing from the scope and spirit of the inventionas disclosed in the accompanying claims.

What is claimed is:
 1. A ventilation seat of a vehicle, the ventilationseat comprising: a seat pad having an air flow path provided on a lowersurface part of the seat pad by being depressed on the lower surfacepart, with air flowing in the air flow path; a channel cover provided tohave a plate shape and to be in close contact with the lower surfacepart of the seat pad in order to cover the air flow path; and anadhesive material arranged between the seat pad and the channel cover,and joined to the lower surface part of the seat pad and an uppersurface part of the channel cover respectively, wherein the adhesivematerial has a through hole provided on an area corresponding to an areaof the air flow path.
 2. The ventilation seat of claim 1, wherein theair flow path of the seat pad is configured to extend in a plurality ofcourses on the lower surface part of the seat pad, and the through holeof the adhesive material is configured by extending in order tocorrespond to a shape of the air flow path.
 3. The ventilation seat ofclaim 1, wherein a width of the through hole is configured to be thesame as a width of the air flow path.
 4. The ventilation seat of claim1, wherein a width of opposite lower ends of an inlet part depressed ata position at which the air flow path is provided on the lower surfacepart of the seat pad is configured to be larger than a width of aninside of the air flow path, and a width of the through hole isconfigured to be larger than the width of the opposite lower ends of theinlet part.
 5. The ventilation seat of claim 1, wherein an inlet partdepressed at a position at which the air flow path is provided on thelower surface part of the seat pad includes joined parts protruding fromopposite lower ends of the air flow path toward a center of the air flowpath, wherein a distance spaced apart from each other between oppositelower ends of the joined parts is configured to be shorter than a widthof an inside of the air flow path.
 6. The ventilation seat of claim 5,wherein a width of the through hole is configured to be equal to orlarger than the distance spaced apart from each other between theopposite lower ends of the joined parts.
 7. The ventilation seat ofclaim 1, wherein each of joined parts is configured to constitute thesame surface as the lower surface part of the seat pad.
 8. Theventilation seat of claim 1, wherein the adhesive material is an acrylicpressure sensitive adhesive (PSA), a rubber PSA, or a hot melt PSA. 9.The ventilation seat of claim 1, wherein the channel cover includes aslit hole provided thereon through which a ventilation duct passes inorder to be combined with the channel cover, wherein the slit hole isprovided at a position at which the air flow path and the through holeoverlap, and a diameter of the slit hole in a longitudinal direction ofthe seat is configured to be larger than a diameter of the slit hole ina width direction of the seat.